Experimental evolution is a powerful tool to understand the adaptive potential of populations under environmental change. Here, we study the importance of the historical genetic background in the outcome of evolution at the genome-wide level. Using the natural clinal variation of Drosophila subobscura, we sampled populations from two contrasting latitudes (Adraga, Portugal and Groningen, Netherlands) and introduced them in a new common environment in the laboratory. We characterized the genome-wide temporal changes underlying the evolutionary dynamics of these populations, which had previously shown fast convergence at the phenotypic level, but not at chromosomal inversion frequencies. We found that initially differentiated populations did ...
The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biolo...
Most founding events entail a reduction of population size, which in turn leads to genetic drift eff...
The molecular mechanisms underlying adaptation have eluded evolutionary biologists even with the adv...
Experimental evolution is a powerful tool to understand the adaptive potential of populations under ...
Background: Natural selection and genetic drift are major forces responsible for temporal genetic ch...
Chromosomal inversions are present in a wide range of animals and plants, having an important role i...
Background: Natural selection and genetic drift are major forces responsible for temporal genetic ch...
The roles of history, chance and selection have long been debated in evolutionary biology. Though un...
The roles of history, chance and selection have long been debated in evolutionary biology. Though un...
Demography and selection have been recognized for their important roles in shaping patterns of nucle...
Demography and selection have been recognized for their important roles in shaping patterns of nucle...
The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biolo...
The combination of experimental evolution and next-generation sequencing, termed E&R, has emerge...
The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biolo...
Most founding events entail a reduction of population size, which in turn leads to genetic drift eff...
The molecular mechanisms underlying adaptation have eluded evolutionary biologists even with the adv...
Experimental evolution is a powerful tool to understand the adaptive potential of populations under ...
Background: Natural selection and genetic drift are major forces responsible for temporal genetic ch...
Chromosomal inversions are present in a wide range of animals and plants, having an important role i...
Background: Natural selection and genetic drift are major forces responsible for temporal genetic ch...
The roles of history, chance and selection have long been debated in evolutionary biology. Though un...
The roles of history, chance and selection have long been debated in evolutionary biology. Though un...
Demography and selection have been recognized for their important roles in shaping patterns of nucle...
Demography and selection have been recognized for their important roles in shaping patterns of nucle...
The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biolo...
The combination of experimental evolution and next-generation sequencing, termed E&R, has emerge...
The genomic basis of adaptation to novel environments is a fundamental problem in evolutionary biolo...
Most founding events entail a reduction of population size, which in turn leads to genetic drift eff...
The molecular mechanisms underlying adaptation have eluded evolutionary biologists even with the adv...